ライフサイエンスコーパス: sagittal

1 n the PET field of view was recorded using a sagittal 2-dimensional multislice gradient echo MR seque

2 Sagittal, 4-chamber, and coronal views were derived for

3 e (83.0 [73.5-95.4] vs 79.0 [68.5-91.0] cm), sagittal abdominal diameter (17.9 [15.8-20.8] vs 17.0 [1

4 Joint consideration of BMI/standing sagittal abdominal diameter categories better discrimina

5 Standing sagittal abdominal diameter was a consistent predictor o

6 In conclusion, standing sagittal abdominal diameter was a strong predictor of CH

7 index (BMI; in kg/m(2)), waist-to-hip ratio, sagittal abdominal diameter, and waist circumference.

8 y (in women), the upper quartile of standing sagittal abdominal diameter, relative to the lowest quar

9 t predictor of BMI, waist circumference, and sagittal abdominal diameter.

10 ium, and musculoskeletal structures for both sagittal acquisitions (mean values of 0.56, 0.63, 0.42,

11 imaging decreasing from 1358 to 613 msec for sagittal acquisitions and from 1494 to 621 msec for coro

12 Ring-enhancement was noted on sagittal and axial images in 36 of 43 (84%) ring enhanci

13 lower face skeleton grows linearly along the sagittal and axial planes from the first to the eleventh

14 ith CT (64 lines and 128 layers) in frontal, sagittal and axial projections.

15 Sequential T1-weighted spin echo sagittal and axial sections were obtained and analyzed o

16 ate compartment and an inner zone containing sagittal and bridging system compartments.

17 The sagittal and coronal ACL-tibial angles, Blumensaat line-

18 fely correct the deformity while maintaining sagittal and coronal balance.

19 sue was correlated with patient age and with sagittal and coronal diameters of the thorax by using th

20 Cross-sectional area and sagittal and coronal diameters of the trachea were measu

21 age of expiratory collapse, the reduction in sagittal and coronal diameters, and the number of partic

22 and near field, was significantly smaller on sagittal and coronal MARS-reconstructed images than on s

23 vrfSSFSE and conventional SSFSE sagittal and coronal oblique acquisitions were performed

24 The transverse CT images, sagittal and coronal reformations, and three-dimensional

25 In sagittal and coronal sections of the central nervous sys

26 lysis of the posterior and anterior frontal, sagittal and coronal sutures of early post-natal mutant

27 The MR imaging protocol consisted of sagittal and coronal T1- and T2-weighted images with and

28 and sagittal plane ankle rotation; and both sagittal and horizontal plane foot rotation.

29 ontributing to common non-syndromic midline (sagittal and metopic) craniosynostosis, we performed exo

30 Bilateral oblique sagittal and oblique coronal intermediate-weighted magne

31 With standard sagittal and reformatted axial-oblique views, anteropost

32 mapped, and volume rendered and then serial sagittal and transverse digital sections of the resultan

33 For sagittal and transverse images, reader sensitivity for f

34 Tests were performed in mid-sagittal and transverse orientations to assess the effec

35 rmal, and all occurred in young infants with sagittal and unicoronal synostosis.

36 ume and the size of the corpus callosum (mid-sagittal) and amygdala (largest coronal section) in MRI

37 ean errors for 2D transverse, 2D coronal, 2D sagittal, and 3D displays were 4.4 mm +/- 3.5, 3.8 mm +/

38 ody images were reconstructed as transaxial, sagittal, and coronal images.

39 nt of the trochlear nerve in the transverse, sagittal, and coronal planes in 57 (95%), 51 (85%), and

40 dual consecutive sections in the transverse, sagittal, and coronal planes.

41 tures, were manually segmented in the axial, sagittal, and coronal planes.

42 ain sections are provided in the transverse, sagittal, and horizontal planes, with the transverse pla

43 argest diameter on the axial plane; coronal, sagittal, and maximal diameter perpendicular to the reco

44 by cytoarchitectonic boundaries in coronal, sagittal, and tangential sections processed for Nissl su

45 the lung field with equally spaced coronal, sagittal, and transverse planes, perpendicular to the ve

46 The automated 3D TEE sagittal annular diameter was significantly greater than

47 white matter volumes and measures of the mid-sagittal area of the corpus callosum did not differ betw

48 The sagittal array of Golgi cell axon terminals suggests tha

49 Line scans along the transverse/sagittal axes were also performed.

50 iofemoral ligament was best evaluated in the sagittal, axial, and axial oblique planes, and it serves

51 ror-reversal (left-right reversal over a mid-sagittal axis) of visual feedback versus rotation of vis

52 are leaning forward after fusion ('positive sagittal balance') do worse as measured by validated out

53 Preoperative assessment showed preserved sagittal balance, coronal imbalance and valgus knee defo

54 ersely affected if patients develop positive sagittal balance.

55 ments (CLs) (n = 12), accessory CL (n = 15), sagittal band (n = 14), transverse fibers of the extenso

56 Rupture in the sagittal band of the extensor hood mechanism in the two

57 sion of PKC-delta is uniformly high, and the sagittal banding for PKC-delta expression is absent.

58 the expression of PKC-delta is restricted to sagittal bands of Purkinje cells in the posterior cerebe

59 Notably, images of sagittal brain slices containing nearly the entire mesh

60 tion and dynamics in intact neurons in acute sagittal brain slices from the knock-in mouse expressing

61 In sagittal brain slices that isolate the SNc soma from the

62 Cell migration was studied in acute sagittal brain slices to determine whether GABA signalin

63 munofluorescence labeling of HA-DAT in acute sagittal brain slices.

64 Bilateral DBT images, FFDM images, and sagittal breast MR images were retrospectively collected

65 es were positively associated with total mid-sagittal CC size and mid-posterior surface area.

66 A 3-dimensional-reconstructed sagittal computed tomographic image confirmed tongue pro

67 Methacrylate-embedded sagittal condylar sections were examined under epifluore

68 rings, respectively, from 3 different maps: sagittal corneal front (KF), true net power (KTNP), and

69 d and fat-saturated T2-weighted (transverse, sagittal, coronal, and coronal oblique planes) MR imagin

70 nome-wide association study for nonsyndromic sagittal craniosynostosis (sNSC) using 130 non-Hispanic

71 Sagittal craniosynostosis is the most common form of cra

72 orders-the aromatase excess syndrome and the sagittal craniosynostosis syndrome-or a variant of the A

73 ignaling which inhibits chondrogenesis, have sagittal craniosynostosis.

74 cs (e.g., a well developed rostrum, elongate sagittal crest, and frontal trigon).

75 and shape factor) and OCT to give both full sagittal cross-sections of the cornea and cross-sections

76 Sagittal CT images assessed for moderate-to-severe verte

77 of each other between 2000 and 2007, before sagittal CT reconstructions were obtained routinely.

78 endent readers evaluated axial, coronal, and sagittal CT reformations for overall image quality, imag

79 alues >/= 70 diopters, as measured using the sagittal curvature map that was obtained by Scheimpflug

80 The relations of abdominal height (sagittal diameter) and various obesity measures to coron

81 greater than both their respective 2D and 3D sagittal diameters (P<0.001).

82 Normative ranges for the sagittal diameters and areas of spinal canal and spinal

83 gates of pelvic inlet, transverse, posterior sagittal diameters of pelvic inlet, the plane of greates

84 Oblique sagittal diffusion-weighted images were obtained with b

85 response direction became biased toward the sagittal direction.

86 When present, the greatest sagittal distance of the cervical extension was measured

87 We confirm the markedly sagittal distribution of the fan-like dendrites of Purki

88 At sagittal echo-planar DTI (20 directions, b values of 0 a

89 beled trunk neural crest cells using a novel sagittal explant and time-lapse confocal microscopy.

90 Contiguous two-station sagittal fast gradient-recalled-echo sequences with 35-c

91 Sagittal fat-suppressed intermediate-weighted fast spin-

92 3), sagittal T2-weighted FSE (4,000/39), and sagittal fat-suppressed three-dimensional (3D) spoiled g

93 ce of intraocular hemorrhage than coronal or sagittal head rotations, but the difference did not reac

94 asurements of corneal diameter (CD), corneal sagittal height (CS), iris diameter (ID), corneoscleral

95 e annular anode electrode, which reduces the sagittal height of the plano-convex PVC gel lens, result

96 al junction angle, corneal diameter, corneal sagittal height, and scleral radius were analyzed from t

97 were correlated with radii of curvatures and sagittal heights at 6-mm and 14-mm horizontal meridian (

98 ative to the subscapularis tendon on oblique sagittal images (displacement sign), medial subluxation

99 GHL, and tendinopathy of the LHBT on oblique sagittal images are the most accurate criteria for the d

100 highest correlation between the coronal and sagittal images from the Allen Mouse Brain Atlas databas

101 fied on coronal images in eight (15%) and on sagittal images in seven (13%).

102 oronal images in seven (13%) patients and on sagittal images in six (11%).

103 Sagittal images of the upper abdominal aorta were obtain

104 Tendinopathy of the LHBT on oblique sagittal images showed a sensitivity of 93%, 82%, 64%; s

105 tial T1- and T2-weighted spin-echo axial and sagittal images were obtained.

106 In sagittal images, contrast was visible in 24.0%to 27.2% o

107 degree of narrowing on reconstructed oblique sagittal images.

108 nance imaging included spin-echo coronal and sagittal imaging for meniscal scoring and axial and coro

109 e, and the benefit of additional coronal and sagittal imaging planes in cePET/CT, PET/MR imaging with

110 was performed with transverse gradient-echo, sagittal intermediate-weighted, sagittal short inversion

111 le image registration, the displacement of a sagittal lung slice acquired at FRC to the larger volume

112 ified MIP images were used in the coronal or sagittal manner.

113 and cross-sectional area) and SWE (axial and sagittal mean velocity and relative anisotropic coeffici

114 radient-echo sequences were performed in the sagittal midline by using a 1.5-T unit to create cine MR

115 for MR of the brain who required sedation, a sagittal midline cine MR sequence was performed.

116 % in patients with chronic illness along the sagittal midline relative to controls.

117 Sagittal MR images of 49 human calcaneus cadaveric speci

118 Sagittal MR images were best for evaluating the palmar p

119 width of the SAF was measured on coronal and sagittal MR images.

120 Transverse (axial) and retrospective sagittal multidetector CT reconstructions were reviewed

121 as spine fractures on chest radiographs and sagittal multidetector CT reconstructions.

122 , rapid (117-266 rad/s) head rotation in the sagittal (n=13), coronal (n=7), or axial (n=31) planes.

123 col included use of transverse, coronal, and sagittal noncontiguous T2-weighted single-shot fast spin

124 uration sequences in transverse, frontal and sagittal oblique planes.

125 und with remarkable consistency that, in the sagittal orientation, granule cells elicit a stereotypic

126 vity within lamina II exhibited a pronounced sagittal orientation, in keeping with the somatotopic or

127 In contrast to the sagittal orientation, in the coronal orientation the org

128 eruvian sea catfish (Galeichthys peruvianus) sagittal otoliths preserve a record of modern and mid-Ho

129 (P < .001) and in the stretched position at sagittal (P < .001) and axial (P = .0026) SWE.

130 isthmus diameter z scores measured either in sagittal (P=0.02) or in 3-vessel trachea view (P<0.001)

131 um with prominent parietal bosses and marked sagittal parietal curvature, superiorly positioned tempo

132 loyment of the coronal (fronto-parietal) and sagittal (parietal-parietal) sutures as major growth cen

133 ses exert significant effects on coronal and sagittal plane ankle rotation; and both sagittal and hor

134 stimulation (60 degrees cyclic motion in the sagittal plane for 15 minutes/day) of the osteotomy gap

135 Previous research has indicated that the sagittal plane gait dynamics of humans are more stable a

136 The sagittal plane was best for analysis of the bone attachm

137 l connectivity is directed vertically in the sagittal plane, and electrical synapses appear strictly

138 bofemoral ligament was best evaluated in the sagittal plane, and it serves a restrictive function in

139 collaterals projected asymmetrically in the sagittal plane, directed away from the lobule apex.

140 r dendrites are only roughly oriented in the sagittal plane, extend both ventrally and dorsally, and

141 as a column of cells, with long-axis in the sagittal plane, extending through the midbrain and pons.

142 heir tails, stabilizing body attitude in the sagittal plane.

143 d by the leg and trunk segment angles in the sagittal plane.

144 appendix and cecum were identifiable in the sagittal plane.

145 d further than was previously thought in the sagittal plane.

146 lunate ligaments were best visualized in the sagittal plane.

147 d standing subjects to sway backwards in the sagittal plane.

148 maining cleavages are symmetrical across the sagittal plane.

149 e and all showed missile trajectories in the sagittal plane.

150 cal synapses appear strictly confined to the sagittal plane.

151 We tested whether the changes to sagittal-plane movements during five running tasks invol

152 easured 3 mm behind the eyeball in axial and sagittal planes and mean value was calculated.

153 nee proprioceptive acuity in the frontal and sagittal planes in patients with knee OA and healthy sub

154 imaging was performed in the coronal through sagittal planes with rotation in 10 degrees increments,

155 of directionality (transverse, coronal, and sagittal planes) and force direction (compression or ten

156 We demonstrate MRI in axial and sagittal planes, at different depths of the sensitive vo

157 re best analyzed either in the transverse or sagittal planes.

158 -200 ms] fast spin echo study in coronal and sagittal planes.

159 subject to assessment in coronal, axial and sagittal planes.

160 ion of the PNR were measured on the selected sagittal planes.

161 with and without MARS in axial, coronal, and sagittal planes.

162 asis on standing lateral radiographs and the sagittal position of the spine.

163 Sagittal proton density-weighted images from MR imaging

164 onal (2D) whole-body T1-weighted MR imaging, sagittal proton-density fat-saturated (PDFS) imaging of

165 er trachea correlated well with decreases in sagittal (r = 0.807 and 0.688, respectively) and coronal

166 The reaching movements were a sagittal 'reach up' (shoulder flexion and elbow flexion)

167 rowing on transaxial sections or coronal and sagittal reconstruction views.

168 unreported at abdominal multidetector CT if sagittal reconstructions are not routinely evaluated.

169 Secondary coronal and sagittal reconstructions were generated.

170 Coronal and sagittal reformations were constructed.

171 d 80% ASIR techniques, with 3-mm coronal and sagittal reformations.

172 In all patients, coronal and sagittal reformatted images showed herniation through th

173 The relation of field loss to sagittal resection length can inform us about the functi

174 closes by endochondral ossification, whereas sagittal (SAG) remain patent life time, although both ar

175 Recordings from reduced preparations (mid-sagittal section at C5-C7) suggest that much of the dela

176 re demonstrated on a MALDI MSI data set of a sagittal section of rat brain (4750 bins, m/z = 50-1000,

177 On the selected sagittal section, a built-in digital caliper recorded in

178 Sagittal sections (10 microm) through the optic nerve we

179 h scleral shell and cut into 4-microm serial sagittal sections across the scleral canal opening, eith

180 men embedded in a paraffin block, and serial sagittal sections cut at 4-mum intervals.

181 NCO was delineated within 40 radial, sagittal sections of 3-D histomorphometric reconstructio

182 Within 40 digital radial sagittal sections of each reconstruction, Bruch's membra

183 In this study, serial sagittal sections of embryos (E12-15) were processed for

184 In situ hybridization with sagittal sections of mouse kidney demonstrates abundant

185 Consecutive axial and sagittal sections of the CT scan were examined to determ

186 factory bulb and cortical sections, and from sagittal sections of the hippocampus and cerebellum.

187 Within images of serial sagittal sections of the ONH tissues in all 17 monkeys,

188 h rhodamine-dextran, and 50 micrometer thick sagittal sections of the spinal cord containing them wer

189 For example, in sagittal sections the dorsal horn was significantly stif

190 For a subset of sagittal sections we also prepared a corresponding set o

191 verse sections and sequential flat (en face) sagittal sections were collected from a region of sclera

192 symmetric, and best visualized on paramedian sagittal sections, and 13 without obvious occipital perf

193 S were delineated in 40 digital, radial, and sagittal sections.

194 serial radial (4.5 degrees interval) digital sagittal sections.

195 of young rats was measured by planimetry in sagittal sections.

196 adient-echo, sagittal intermediate-weighted, sagittal short inversion time inversion-recovery, and sa

197 With use of sagittal single-shot fast spin-echo MR images, the cecal

198 on venous oxygen saturation of the superior sagittal sinus (n = 5 rats per group); and 3) the cortic

199 Stimulation of the superior sagittal sinus (SSS) in humans evokes head pain.

200 ramaximal electrical stimulation of superior sagittal sinus (SSS) in the cat.

201 on by electrical stimulation of the superior sagittal sinus (SSS) in the cat.

202 amocortical activity in response to superior sagittal sinus (SSS) stimulation.

203 The superior sagittal sinus (SSS) was stimulated electrically, and li

204 asurement, blood samples were drawn from the sagittal sinus and brachiocephalic artery catheters and

205 ietal cortices and vascular catheters in the sagittal sinus and brachiocephalic artery.

206 nous sinus thrombosis involving the superior sagittal sinus and right transverse-sigmoid sinuses.

207 n with color Doppler imaging of the superior sagittal sinus and transverse sinuses through the anteri

208 firing evoked by stimulation of the superior sagittal sinus as well as the background activity.

209 the relation of LD-CBF, cortical tP(O2), and sagittal sinus blood gas values to P(a,O2).

210 n use and lactate concentration increased in sagittal sinus blood.

211 ted in a dose-dependent recovery of superior sagittal sinus evoked trigeminocervical nucleus activity

212 d in a dose-dependent inhibition of superior sagittal sinus evoked trigeminocervical nucleus activity

213 ere inserted in a brachiocephalic artery and sagittal sinus for blood sampling.

214 Stimulation of the superior sagittal sinus in humans is pain-producing and in experi

215 us atresia in eight, and a narrowed superior sagittal sinus in two.

216 ing, elicited by stimulation of the superior sagittal sinus or by microiontophoretic application of l

217 spond to noxious stimulation of the superior sagittal sinus or to ventrolateral PAG stimulation.

218 Also, for these conditions sagittal sinus P(O2) and [HbO2] values were similar.

219 tion of CBF, cortical tissue P(O2) (tP(O2)), sagittal sinus P(O2), and related indices of cerebral ox

220 P(O2), and several other variables including sagittal sinus P(O2), correlated highly with arterial P(

221 he present study was designed to measure the sagittal sinus PO(2) (PvO(2)), brain tissue PO(2) in the

222 Stimulation of the superior sagittal sinus produced a stimulus-locked, frequency-dep

223 1.58 to 84.46, p=0.01) and isolated superior sagittal sinus thrombosis (HR=0.39, 95% CI=0.14 to 1.04,

224 and venous oxygen saturation of the superior sagittal sinus values concomitant with diffuse brain ede

225 stanoid production in the carotid artery and sagittal sinus vein before and during midazolam infusion

226 It is also associated with changes in sagittal sinus vein blood pressure and cerebral fraction

227 st, midazolam infusion significantly reduced sagittal sinus vein blood pressure, PO2, oxygen saturati

228 eters were placed in the brachial artery and sagittal sinus vein for collection of samples for blood

229 Concurrently, systemic and sagittal sinus vein plasma prostaglandin E2 concentratio

230 dose in newborn piglets alters systemic and sagittal sinus vein prostanoid production.

231 The superior sagittal sinus was isolated for electrical stimulation (

232 Units linked to stimulation of the superior sagittal sinus were identified and recorded from in the

233 tal sinus, (iii) stimulation of the superior sagittal sinus with PAG stimulation, or (iv) stimulation

234 r (i) sham, (ii) stimulation of the superior sagittal sinus, (iii) stimulation of the superior sagitt

235 JCH except 1 had thrombosis of the superior sagittal sinus, compared to 49% of patients with CVT and

236 he skull fractures extending to the superior sagittal sinus, those of the occipital bone had a higher

237 firing evoked by stimulation of the superior sagittal sinus.

238 g the borders of the transverse and superior sagittal sinuses.

239 pole of VIIn (VIIc), in the in vitro tilted sagittal slab preparation, isolated from neonate male an

240 esolution (0.05-mm(3) pixels) in coronal and sagittal slabs (17 sections at 1 mm thick) over the hipp

241 ganglia formation using a recently developed sagittal slice explant culture and 3D confocal time-laps

242 White matter microstimulation in sagittal slices (near the ventricular surface of the tur

243 Voltage-sensitive dye imaging in sagittal slices confirmed this morphologically derived c

244 the granule cell layer of both transverse or sagittal slices evoked a local membrane depolarization r

245 from labeled RMTg neurons were performed in sagittal slices from rat.

246 eling waves of activity in Purkinje cells in sagittal slices from young mice that require GABA(A) rec

247 scanning and image assessment do not include sagittal slices that extend to the lateral edges of all

248 TX decreased PSC frequency in OVX+E cells in sagittal slices, but not coronal slices.

249 lar layer of thick transverse slices but not sagittal slices.

250 subsided in coronal slices but persisted in sagittal slices.

251 urons from OVX+E and OVX mice in coronal and sagittal slices.

252 ve magnetic resonance (MR) imaging protocol (sagittal spin-echo Dixon T2-weighted fat-only and water-

253 inferior to that with the standard protocol (sagittal spin-echo T1-weighted and spin-echo Dixon T2-we

254 Sagittal spine sections were evaluated for evidence of h

255 ists compared the visibility of the superior sagittal, straight, transverse, and sigmoid sinuses and

256 icular part of the internal capsule, and the sagittal stratum (p<.05, corrected).

257 group, but only in the cortico-spinal tract, sagittal stratum and superior longitudinal fasciculus fo

258 CBM atlas, including uncinate fasciculus and sagittal stratum as a control tract, were registered to

259 iculus, superior longitudinal fasciculus and sagittal stratum.

260 in Purkinje cells (PCs) such that there are sagittal stripes of high expression (ZII+) interdigitate

261 ressed in cerebellar PCs such that there are sagittal stripes of PCs with high expression (ZII+) inte

262 at climbing fibers are distributed in narrow sagittal strips and that these fibers terminate exclusiv

263 ral location was between 2 mm lateral to the sagittal sulcus and the lateral end of the cruciate sulc

264 lasts (P < 0.05) and in a 2-fold increase in sagittal suture area (P < 0.05).

265 We noted ectopic cartilage at the midline sagittal suture, and cartilage abnormalities in the basi

266 steriorly from the bregma, centered over the sagittal suture.

267 rated continuous bone growth and overlapping sagittal sutures.

268 Sagittal sway results from this impulsive control of cal

269 and less than or equal to 5.70 m .sec(-1) at sagittal SWE (sensitivity, 41.7%; 95% CI: 22.1, 63.3; sp

270 nd less than or equal to 14.58 m .sec(-1) at sagittal SWE (sensitivity, 58.3%; 95% CI: 36.7, 77.9; sp

271 All patients with sagittal synostosis had a significant immediate postoper

272 om Nell-1 transgenic newborn mice (with mild sagittal synostosis) demonstrated continuous bone growth

273 short inversion time inversion-recovery, and sagittal T1- and T2-weighted fast spin-echo sequences.

274 Serial sagittal T1- and T2-weighted magnetic resonance images o

275 Axial and sagittal T1- and T2-weighted sequences were obtained.

276 We used coronal and sagittal T1-weighted (T1W) and T2-weighted (T2W) magneti

277 The imaging protocol included sagittal T1-weighted images, axial fast fluid-attenuated

278 The following sequences were used: (a) sagittal T1-weighted TSE and FS PD-weighted TSE and (b)

279 -weighted TSE and FS PD-weighted TSE and (b) sagittal T1-weighted TSE and single-shot echo-planar dif

280 ng a routine protocol with the addition of a sagittal T2 mapping sequence.

281 Sagittal T2 maps were calculated for the remaining 10 su

282 on time msec/echo time [TE] msec, 4,000/13), sagittal T2-weighted FSE (4,000/39), and sagittal fat-su

283 one of three MR findings of degeneration on sagittal T2-weighted images.

284 Sixty-six sagittal T2-weighted or inversion-recovery MR images of

285 tive MR imaging, including axial oblique and sagittal T2-weighted, dynamic contrast material-enhanced

286 sverse T1-weighted; transverse, coronal, and sagittal T2-weighted; diffusion-weighted; and dynamic co

287 proteins from organs present in a whole-body sagittal tissue section.

288 The sagittal tomograms and en face reflectance images over a

289 prachoroid layer (LSL) were delineated in 2D sagittal tomograms.

290 ained using T1- and T2-weighted sequences in sagittal, transverse and frontal planes in all patients,

291 to determine significant differences between sagittal, transverse, and coronal measurements, as well

292 Cartilage T2 maps were generated by using sagittal two-dimensional multiecho spin-echo images of t

293 vides data on dynamic airway movement in the sagittal view which can be used to differentiate palate

294 th percentiles: 3, 3 vs 2, 3]; P < .001) and sagittal views (median, 3 vs 2 [25th and 75th percentile

295 Coronal, transverse, and sagittal views were compared with correlations and Bland

296 an measurement on 2D transverse, coronal, or sagittal views, both in vitro and in vivo, for the CT co

297 tatus, and the orientation of the MR images (sagittal vs axial).

298 depths from Purkinje cells found in a narrow sagittal zone of cortex as complex spikes.

299 It consists of 4 sagittal zones based on PC complex spike activity (CSA)

300 (PC) response properties are organized into sagittal "zones" in the cerebellum.